Last edited by Kilmaran
Monday, August 3, 2020 | History

3 edition of Oxidoreduction at the plasma membrane found in the catalog.

Oxidoreduction at the plasma membrane

relation to growth and transport

  • 244 Want to read
  • 36 Currently reading

Published by CRC Press in Boca Raton .
Written in English

    Subjects:
  • Oxidoreductases.,
  • Cell membranes.,
  • Cells -- Growth -- Regulation.,
  • Biological transport.,
  • Biological Transport.,
  • Cell Division.,
  • Cell Membrane.,
  • Oxidation-Reduction.

  • Edition Notes

    Includes bibliographical references and indexes.

    Statementeditors, Frederick L. Crane, D. James Morré, Hans E. Löw.
    ContributionsCrane, Frederick L., Morré, D. James, 1935-, Löw, Hans.
    Classifications
    LC ClassificationsQP602 .O95 1990
    The Physical Object
    Pagination2 v. :
    ID Numbers
    Open LibraryOL1850293M
    ISBN 100849369371, 084936938X
    LC Control Number90001761

      Discover Book Depository's huge selection of Jim Morre books online. Free delivery worldwide on over 20 million titles. Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume II. Frederick L. Crane. 01 May Hardback. US$ Add to basket. Molecular Mechanisms of Membrane Traffic. D. James Morre. 03 Oct The plasma membrane protects the cytoplasm and all of the cellular organelles by forming a selective barrier between the cell’s organelles and the outside environment. Structures of Plasma Membrane. The plasma membrane is composed of a phospholipid bilayer, which is two layers of phospholipids back-to-back.

    Potocytosis, a variant of pinocytosis, is a process that uses a coating protein, called caveolin, on the cytoplasmic side of the plasma membrane, which performs a similar function to clathrin. The cavities in the plasma membrane that form the vacuoles have membrane receptors and lipid rafts in addition to caveolin.   The plasma membrane of cells acts as a semi-permeable membrane. If red blood cells, for example, are placed in water, the water crosses the membrane to make the amount of water on both sides of it equal (see diagram ). This means that the water moves into the cell causing it to swell.

    The fluid mosaic model of the plasma membrane suggests that a) Cholesterol forms the outermost layer of the membrane. b) Proteins form a 'liquid" sea in the membrane. c) Phospholipids form a single lipid layer in the center of the membrane. d) The membrane is neither rigid nor static in structure. e) Proteins are not a part of the membrane. Medina MA, Núñez de Castro I. Plasma membrane oxidoreduction and amino acid transport. Oxidoreduction at the Plasma Membrane. Animals (Crane FL, Morré DJ, Löw H, eds), pp (). CRC Press, Boca Ratón [19].


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Oxidoreduction at the plasma membrane Download PDF EPUB FB2

Oxidoreduction at the Plasma Membrane: Relation to Growth and Transport provides the first truly comprehensive coverage of the oxidoreduction reactions in plasma membranes and the role that can now be attributed to these enzymes in controlling growth and other cell functions in plants and animals.

The book describes the nature and orientation Format: Hardcover. Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume I by Frederick L. Crane; D. James Morre; Hans Oxidoreduction at the plasma membrane book. Low and a great selection of related books, art and collectibles available now at The concept of general oxidoreductase function at the plasma level is new.

Oxidoreduction at the Plasma Membrane: Relation to Growth and Transport provides the first truly comprehensive coverage of the oxidoreduction reactions in plasma membranes and the role that can now be attributed to these enzy.

This multiauthor book provides comprehensive coverage of the oxidoreduction reactions in plasma membranes and the role of these enzymes in controlling growth and other cell functions in plants in the following chapters: early days of oxidoreduction and transport hypotheses in plants; oxidoreductase enzymes in plant plasma membranes; electron transport constituents in the plant plasma membrane.

Book Description. The concept of general oxidoreductase function at the plasma level is new. Oxidoreduction at the Plasma Membrane: Relation to Growth and Transport provides the first truly comprehensive coverage of the oxidoreduction reactions in plasma membranes and the role that can now be attributed to these enzymes in controlling growth and other cell functions.

Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume II by Frederick L. Crane,available at Book Depository with free delivery worldwide.

Discusses about oxidoreduction reactions in plasma membranes. This book describes the nature and orientation of oxidoreductases in plasma membranes. It is suitable for biochemists, biologists, Read more. Lactoferrin activates plasma membrane oxidase and Na + H + antiport activity Author links open overlay panel Iris L.

Sun 1 Frederick L. Crane 1 Morré 2 Hans. The rapid response of c fos and c myc Proto-oncogene to stimulation of plasma membrane redox activity by external oxidants under­ scores a potential role of plasma membrane oxidoreductases in growth control.

Other experiments with isolated endosomes in­ dicate emerging roles in endocytosis and lytic processes. The mechanism by which plasma membrane oxidoreductase stimulates cell Redox activity in the plasma membrane has been be involved in growth control. c-myc protooncogene (27,28), activation of specific tyrosine kinase (29), activation transport (30) and stimulation of the Na+/H+ antiport (12,22,29).

that ferric lactoferrin activates proton. Oxidoreduction at the Plasma Membrane: Relation to Growth and Transport provides the first truly comprehensive coverage of the oxidoreduction reactions in plasma membranes and the role that can now be attributed to these enzymes in controlling growth and other cell functions in plants and animals.

Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume II(1st Edition) by Frederick L. Crane, D. James Morre, Hans E. Low, Jeffrey A. Frelinger, Howard M. Grey, Andrew J. Mcmichael, Stanley G.

Nathenson, D. James Morré, Hans Löw Hardcover, Pages, Published by Crc Press ISBNISBN: Electron transport constituents in the plant plasma membrane. (English) In: Oxidoreduction at the plasma membrane: Relation to growth and transport. Volume II: plants, Boca Raton: CRC Press,Chapter in book. The second describes plasma membrane transport activity.

The final section of the book describes signaling interactions at the plasma membrane. These topics are given a unique treatment in this volume, as the discussions are restricted to the plasma membrane itself as much as possible.

Although several investigations have demonstrated a plasma membrane (PM)-bound peroxidase activity in plants, this study is the first, to our knowledge, to purify and characterize the enzymes responsible. Proteins were extracted from highly enriched and thoroughly washed PMs.

Washing and solubilization procedures indicated that the enzymes were tightly bound to the membrane. NADH Oxidase Ascorbate Oxidase Liver Plasma Membrane Plasma Membrane Vesicle Membrane Electron Transport These keywords were added by machine and not by the authors.

This process is experimental and the keywords may be. The study of membrane traffic in reconstituted cell-free systems has generated an unprecedented amount of new information on the biochemistry, molecular biology and genetics of membrane-based molecular events that underly normal and abnormal cellular function.

Many of the individual steps have now been isolated and dissected in simple systems that permit detailed molecular. To increase the surface area of some cells, the plasma membrane possesses. Microvilli. A group of cells that are similar in structure and work together to perform a common function are referred to as a(n) Organ.

The tissue lining the mouth, organs of the digestive system, and inner surfaces of the lungs is classified as. Author(s): Crane,Frederick L; Morré,D James,; Löw,Hans Title(s): Oxidoreduction at the plasma membrane: relation to growth and transport/ editors. The Plasma membrane is considered to conform to the fluid mosaic model of the cell membrane proposed by singer and Nicholson.

The membrane is composed of proteins, lipids, and carbohydrates. There is wide variation in the lipid-protein ratio between different cell membrane. The other possibility is an increase in expression of SIR by activation of plasma membrane oxidase. Previous experiments have shown that activation of the plasma membrane redox system can increase cellular NAD+ concentration.

The plasma membrane redox systems are also involved in control of protein kinase activity through oxygen radical generation.The plasma membrane allows the cell to take up many varieties of small molecules and ions and exclude others.

Substances that move through the membrane do so at different rates. Movement of a molecule through a membrane depends on the interaction of the molecule with the hydrophobic core of the membrane.Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume II (Hardback) Frederick L.

Crane £ Hardback.